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I know that nested functions are not part of the standard C, but since they're present in gcc (and the fact that gcc is the only compiler i care about), i tend to use them quite often.

Is this a bad thing ? If so, could you show me some nasty examples ? What's the status of nested functions in gcc ? Are they going to be removed ?


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9 Answers 9

up vote 14 down vote accepted

Nested functions really don't do anything that you can't do with non-nested ones (which is why neither C nor C++ provide them). You say you are not interested in other compilers - well this may be atrue at this moment, but who knows what the future will bring? I would avoid them, along with all other GCC "enhancements".

A small story to illustrate this - I used to work for a UK Polytechinc which mostly used DEC boxes - specifically a DEC-10 and some VAXen. All the engineering faculty used the many DEC extensions to FORTRAN in their code - they were certain that we would remain a DEC shop forever. And then we replaced the DEC-10 with an IBM mainframe, who's FORTRAN compiler didn't support any of the extensions. There was much wailing and gnashing of teeth on that day, I can tell you. My own FORTRAN code (an 8080 simulator) ported over to the IBM in a couple of hours (almost all taken up with learning how to drive the IBM compiler), because I had written it in bog-standard FORTRAN-77.

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I really understand this argument, but is there something fundamentally bad about the implementation of these nested functions ? Or does it break some kind of C philosophy ? –  LB40 May 28 '10 at 13:41
@LB I doubt there is anything bad about the implementation - they are (like I said) simply not necessary. –  anon May 28 '10 at 13:45
Nested functions can access variables of the function in which they are declared. How do you manage this with non-nested functions? –  mgarciaisaia Aug 9 '13 at 22:45
@MatthewMitchell: the problem is how to pass the function like an argument to another. See this example: how can you work around that without nested functions? –  mgarciaisaia Mar 22 '14 at 5:50
Nested functions are useful; they give the programmer some of the benefits of anonymous lambdas (for example, less painful use of functions taking other functions as arguments, less code duplication), without the overhead of allocating closures. Given the ubiquity of GCC, the risk of using a non-standard GNU extension is not comparable to relying on a feature which was implemented in a non-portable compiler for a single brand of machine. And, because the scope of the nested functions is purely local, modules using the feature can still be linked to modules produced by any other compiler. –  vlopez Mar 12 at 16:47

As you said, they are a bad thing in the sense that they are not part of the C standard, and as such are not implemented by many (any?) other C compilers.

Also keep in mind that g++ does not implement nested functions, so you will need to remove them if you ever need to take some of that code and dump it into a C++ program.

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that's funny, they mention the paper Lexical closures for C++ but do not implement the extension in g++ –  LB40 May 28 '10 at 13:44

There are times nested functions can be useful, particularly with algorithms that shuffle around lots of variables. Something like a written-out 4-way merge sort could need to keep a lot of local variables, and have a number of pieces of repeated code which use many of them. Calling those bits of repeated code as an outside helper routine would require passing a large number of parameters and/or having the helper routine access them through another level of pointer indirection.

Under such circumstances, I could imagine that nested routines might allow for more efficient program execution than other means of writing the code, at least if the compiler optimizes for the situation where there any recursion that exists is done via re-calling the outermost function; inline functions, space permitting, might be better on non-cached CPUs, but the more compact code offered by having separate routines might be helpful. If inner functions cannot call themselves or each other recursively, they can share a stack frame with the outer function and would thus be able to access its variables without the time penalty of an extra pointer dereference.

All that being said, I would avoid using any compiler-specific features except in circumstances where the immediate benefit outweighs any future cost that might result from having to rewrite the code some other way.

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Like most programming techniques, nested functions should be used when and only when they are appropriate.

You aren't forced to use this aspect, but if you want, nested functions reduce the need to pass parameters by directly accessing their containing function's local variables. That's convenient. Careful use of "invisible" parameters can improve readability. Careless use can make code much more opaque.

Avoiding some or all parameters makes it harder to reuse a nested function elsewhere because any new containing function would have to declare those same variables. Reuse is usually good, but many functions will never be reused so it often doesn't matter.

Since a variable's type is inherited along with its name, reusing nested functions can give you inexpensive polymorphism, like a limited and primitive version of templates.

Using nested functions also introduces the danger of bugs if a function unintentionally accesses or changes one of its container's variables. Imagine a for loop containing a call to a nested function containing a for loop using the same index without a local declaration. If I were designing a language, I would include nested functions but require an "inherit x" or "inherit const x" declaration to make it more obvious what's happening and to avoid unintended inheritance and modification.

There are several other uses, but maybe the most important thing nested functions do is allow internal helper functions that are not visible externally, an extension to C's and C++'s static not extern functions or to C++'s private not public functions. Having two levels of encapsulation is better than one. It also allows local overloading of function names, so you don't need long names describing what type each one works on.

There are internal complications when a containing function stores a pointer to a contained function, and when multiple levels of nesting are allowed, but compiler writers have been dealing with those issues for over half a century. There are no technical issues making it harder to add to C++ than to C, but the benefits are less.

Portability is important, but gcc is available in many environments, and at least one other family of compilers supports nested functions - IBM's xlc available on AIX, Linux on PowerPC, Linux on BlueGene, Linux on Cell, and z/OS. See

Nested functions are available in some new (eg, Python) and many more traditional languages, including Ada, Pascal, Fortran, PL/I, PL/IX, Algol and COBOL. C++ even has two restricted versions - methods in a local class can access its containing function's static (but not auto) variables, and methods in any class can access static class data members and methods. The upcoming C++ standard has lamda functions, which are really anonymous nested functions. So the programming world has lots of experience pro and con with them.

Nested functions are useful but take care. Always use any features and tools where they help, not where they hurt.

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Nested functions can be used to make a program easier to read and understand, by cutting down on the amount of explicit parameter passing without introducing lots of global state.

On the other hand, they're not portable to other compilers. (Note compilers, not devices. There aren't many places where gcc doesn't run).

So if you see a place where you can make your program clearer by using a nested function, you have to ask yourself 'Am I optimising for portability or readability'.

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I agree with Stefan's example, and the only time I used nested functions (and then I am declaring them inline) is in a similar occasion.

I would also suggest that you should rarely use nested inline functions rarely, and the few times you use them you should have (in your mind and in some comment) a strategy to get rid of them (perhaps even implement it with conditional #ifdef __GCC__ compilation).

But GCC being a free (like in speech) compiler, it makes some difference... And some GCC extensions tend to become de facto standards and are implemented by other compilers.

Another GCC extension I think is very useful is the computed goto, i.e. label as values. When coding automatons or bytecode interpreters it is very handy.

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I wouldn't use it 'cause it's not portable to other compilers.

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I'm just exploring a bit different kind of use of nested functions. As an approach for 'lazy evaluation' in C.

Imagine such code:

void vars()
  bool b0 = code0; // do something expensive or to ugly to put into if statement
  bool b1 = code1;

  if      (b0) do_something0();
  else if (b1) do_something1();


void funcs()
  bool b0() { return code0; }
  bool b1() { return code1; }

  if      (b0()) do_something0();
  else if (b1()) do_something1();

This way you get clarity (well, it might be a little confusing when you see such code for the first time) while code is still executed when and only if needed. At the same time it's pretty simple to convert it back to original version.

One problem arises here if same 'value' is used multiple times. GCC was able to optimize to single 'call' when all the values are known at compile time, but I guess that wouldn't work for non trivial function calls or so. In this case 'caching' could be used, but this adds to non readability.

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Nested functions are a MUST-HAVE in any serious programming language.

Without them, the actual sense of functions isn't usable.

It's called lexical scoping.

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You could be more specific. –  Niklas Hansson Sep 27 '12 at 16:26
which means most of the existing languages are not for "serious programming"!! –  Sanjay Nov 28 '12 at 12:17

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